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STEAM CONDENSERS

STEAM CONDENSERS. If the pressure of the exhaust steam reduced below the atmospheric pressure and hence its energy, partially of fully, can not be reutilized, than this phenomenon is called Steam Condensation. CONDENSATION.

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STEAM CONDENSERS

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  1. STEAM CONDENSERS

  2. If the pressure of the exhaust steam reduced below the atmospheric pressure and hence its energy, partially of fully, can not be reutilized, than this phenomenon is called Steam Condensation. CONDENSATION

  3. The heat transfer device in which the exhaust steam of a turbine or an engine is condensed by means of cooling water at pressure below atmospheric, is called Steam Condenser. STEAM CONDENSERS

  4. The condensed Steam is called Condensate and can be again returned to Boiler. It saves the cost of water. CONDENSATE

  5. PRINCIPLE OF CONDENSATION • In order to attain maximum work, according to Carnot principle, the heat must be supplied at Maximum pressure and temperature and should be rejected at Minimum pressure and temperature.

  6. PRINCIPLE OF CONDENSATION • The steam from the steam turbine or steam engine could be exhausted to atmosphere in such a manner that the back pressure would below the atmospheric pressure.

  7. It increases the work output per kg of steam supplied to the power plant. Reduces the specific steam consumption. Reduces the size of power plant of given capacity. Improves the thermal efficiency of power plant. Saves the cost of water to be supplied to boiler. ADVANTAGES OF CONDENSERS

  8. ELEMENTS OF CONDENSING PLANT • CONDENSER: In which the exhaust steam of the turbine is condensed by circulating cooling water. • CONDENSATE EXTRACTION PUMP: to remove the condensate from the condenser and feed it into the hot-well. The feed water from hot-well is further pumped to boiler.

  9. ELEMENTS OF CONDENSING PLANT • AIR EXTRACTION PUMP: to remove air from the condenser, such a pump is called dry air pump. If air and condensate both are removed, it is called as wet air pump. • CIRCULATING PUMP: used to supply feed water either from river or from the cooling tower pond to the condenser.

  10. ELEMENTS OF CONDENSING PLANT • COOLING TOWER: • The Ferro concrete made device (hyperbolic shape) in which the hot water from the condenser is cooled by rejecting heat to current of air passing in the counter direction. • Ring troughs are placed 8-10m above the ground level.

  11. TYPES OF CONDENSERS • JET CONDENSERS The exhaust steam and cooling water come in direct contact and as a result the steam is condensed. It is also called direct contact condensers. • SURFACE CONDENSERS The cooling water flows through a network of tubes and the exhaust steam passes over these tubes. The steam gets condensed due to heat transfer to coolant by conduction and convection.

  12. COMPARISION

  13. JET CONDENSERS

  14. CLASSIFICATION OF JET CONDENSERS • Low level jet condensers • Counter flow type • Parallel flow type 2. High level jet injectors 3. Ejector jet condensers

  15. The cooling water to be lifted into the condenser up to a height of 5.5m. It is having disadvantage of flooding the steam turbine if the condensate extraction pump fails. 1.(i) LOW LEVEL COUNTER FLOW JET INJECTOR

  16. 1.(ii) LOW LEVEL PARALLEL FLOW JET INJECTOR • The mixture of condensate, coolant and air are extracted with the help of wet air pump. • Vacuum created in the condenser limits up to 600 mm of Hg.

  17. 2.HIGH LEVEL JET CONEDNSER/ BAROMETRIC JET CONDENSER • It is also called Barometric jet condenser since it is placed above the atmospheric pressure equivalent to 10.33 m of water pressure. • Condensate extraction pump is not required because tail pipe has incorporated in place of it.

  18. The cooling water enters the top of the condenser at least under a head of 6m of water pressure with the help of centrifugal pump. This system is simple, reliable and cheap. Disadvantage of mixing of condensate with the coolant. 3. EJECTOR JET CONDENSER

  19. SURFACE CONDENSERS

  20. Surface condensers are of two types • SURFACE CONDENSERS In this steam flows outside the network of tubes and water flows inside the tubes. • EVAPORATIVE CONDENSERS In this condenser shell is omitted. The steam passes through condenser tubes, the water is sprayed while the air passes upward outside the tube.

  21. CLASSIFICATION OF SURFACE CONDENSERS • The number of water passes: • Single pass • Multipass • The direction of condensate flow and tube arrangement: • Down flow condenser • Central flow condenser

  22. DOUBLE PASS SURFACE CONDENSER • It consist of air tight cast iron cylindrical shell. • If cooling water is impure, condenser tubes are made up of red brass.

  23. DOWN FLOW SURFACE CONDENSER • This condenser employs two separate pumps for the extraction of condensate and the air. • Baffles are provided so that the air is cooled to the minimum temperature before it is extracted. • The specific volume of cooled air reduces, thereby, reduces the pump capacity to about 50%. Therefore, it also reduces the energy consumption fro running the air pump.

  24. CENTRAL FLOW SURFACE CONDENSER • Air extraction pump is located at the centre of the condenser tubes. • Condensate is extracted from the bottom of the condenser with the help of condensate extraction pump. • Provides the better contact of steam.

  25. EVAPORATIVE CONDENSER • The exhaust steam is passed through the series of gilled tubes called condenser coils. • Thin film of cooling water trickles over these tubes continuously from water nozzles. • During the condensation of steam, this thin film of water is evaporated and the remainder water is collected in the water tank. • The condensate is extracted with the help of wet air pump. • The air passing over the tubes carries the evaporated water in the form of vapour and it is removed with the help of induced draft fan installed at the top.

  26. MERITS AND DEMERITS OF JET CONDENSERS • MERITS • Less quantity of cooling water is required to condense the steam. • Simple in construction and low in cost. • Does not require cooling water pump. • Less space is required. • Low maintenance cost. • DEMERITS • The condensate is a waste. • Less suitable for high capacity plants. • Large length of pipes required, hence piping cost is high. • Loss of vacuum due to leakage of air from long pipings.

  27. MERITS AND DEMERITS OF SURFACE CONDENSERS • MERITS • No mixing of cooling water and steam, hence the condensate directly pumped into the boiler. • Any kind of feed water can be used. • Develops high vacuum, therefore suitable fro large power plants. • Require less power to run the air extraction and water extraction pump. • System is more efficient. • DEMERITS • Require large quantity of cooling water. • System is complicated, costly and requires high maintenance cost. • Require large floor space since it is bulky.

  28. AIR PUMPS

  29. TYPES OF AIR PUMPS • WET AIR PUMP • DRY AIR PUMP

  30. AIR PUMPS • WET AIR PUMP Used to remove both condensate and the air from the condenser. These may be of type: • Reciprocating • Rotary • DRY AIR PUMP Used only to remove moist air. These may be of type: • Reciprocating • Rotary

  31. RECIPROCATING AIR PUMP(Edward’s Air Pump) • This pump is suitable only for small power plants.

  32. STEAM JET AIR EJECTOR • It consists of convergent- divergent nozzle and a diffuser. • Steam from boiler enters from ‘a’ nozzle where its K.E increases and pressure decreases. • Pipe ‘c’ is connected to condenser form where the air mixes with low pressure steam at ‘b’. • The mixture of steam and air moves to diffuser ‘d’ where its velocity decreases and pressure increases at the time of leaving.

  33. STEAM JET AIR EJECTOR • The system shows only one ejector, if more ejectors are introduced, a very low pressure can be obtained in the condenser. • Usually up to four numbers of ejectors are used which can reduce the pressure in the condenser up to 0.08 bar. • It is simple in construction, cheap, highly efficient and don’t have any moving parts.

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